U.S. patent number 7,726,327 [Application Number 11/537,031] was granted by the patent office on 2010-06-01 for universal mount for a walker.
This patent grant is currently assigned to Tubular Fabricators Industry, Inc.. Invention is credited to Joseph Battiston.
United States Patent |
7,726,327 |
Battiston |
June 1, 2010 |
Universal mount for a walker
Abstract
A walker includes a universal mount adapted to interchangeably
receive multiple different attachments useful for a patient using
the walker. A single walker may have an array of attachments
adapted to be interchangeably used by a particular user.
Alternatively, a care provider may stock a single walker available
for use by many different patients, because individual needs may be
met by the different attachments that may be interchangeably used
with the mount on the single walker.
Inventors: |
Battiston; Joseph (Sutherland,
VA) |
Assignee: |
Tubular Fabricators Industry,
Inc. (Petersburg, VA)
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Family
ID: |
39259939 |
Appl.
No.: |
11/537,031 |
Filed: |
September 29, 2006 |
Prior Publication Data
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Document
Identifier |
Publication Date |
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US 20080078431 A1 |
Apr 3, 2008 |
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Current U.S.
Class: |
135/67; 482/68;
280/87.021; 135/66 |
Current CPC
Class: |
A61H
3/04 (20130101); A61H 2003/002 (20130101); A61H
2003/046 (20130101) |
Current International
Class: |
A61H
3/04 (20060101) |
Field of
Search: |
;135/65-67,85
;280/304.1,87.021,87.051,250.1 ;482/67-68 ;297/5-9
;248/558,911-912,230.2 ;224/407 |
References Cited
[Referenced By]
U.S. Patent Documents
Foreign Patent Documents
Other References
Website, www.sammonspreston.com 1 page. cited by other.
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Primary Examiner: Yip; Winnie
Attorney, Agent or Firm: Thomas, Karceski, Raring &
Teague, P.C.
Claims
What is claimed is:
1. A walker assembly for assisting a patient with mobility, the
walker assembly comprising: a pair of side frames, each side frame
including a front leg, a rear leg, and a handrail, the handrail
joining the upper ends of the front and rear legs; a cross member
connected on each end to each side frame; a tubular universal mount
fixed to the cross member, the tubular mount comprising a circular
or non-circular cross-sectional geometry; and a set of a plurality
of different attachments wherein each attachment of the set
provides a different function, the plurality of attachments adapted
to selectively and slidably engage the mount, the mount
interchangeably engaging one attachment of the set of plurality of
different attachments.
2. A walker assembly as described in claim 1, wherein each side
frame further comprises a u-shape defined by the front leg and the
rear leg being substantially vertical and the handrail connecting
the upper ends of the substantially vertical front and rear
legs.
3. A walker assembly as described in claim 1, wherein the set of a
plurality of different attachments includes at least two
attachments selected from the group consisting of oxygen tank
holders, handles, IV poles, baskets, cane holders, trays, armrests,
and umbrella holders.
4. A walker assembly as described in claim 1, wherein the tubular
element has a plurality of apertures therein, each aperture adapted
to receive a detent.
5. A walker assembly as described in claim 1, wherein the tubular
element has a plurality of notches, each notch adapted to receive a
detent.
6. A walker assembly as described in claim 1, wherein the side
frames are rotatably connected to the cross member.
7. A walker assembly as described in claim 6, wherein the side
frames are releasably and lockably connected to the cross
member.
8. A walker assembly as described in claim 1, further comprising a
second cross member, and the universal mount is fixed to both cross
members.
9. A walker assembly as described in claim 8, wherein the universal
mount is fixed to both cross members on the back side of both cross
members.
10. A walker assembly as described in claim 1, wherein the
universal mount is fixed to the cross member in the center of the
cross member substantially equidistant from each side frame.
11. A walker assembly as described in claim 1, wherein the mount is
fixed on the back side of the cross member.
12. A walker assembly for assisting a patient with mobility, the
assembly comprising: a pair of side frames, each side frame
including a front leg, a rear leg, and a handrail, the handrail
joining the upper ends of the front and rear legs; a cross member
connected on each end to each side frame; a set of a plurality of
different attachments wherein each attachment provides a different
function; a tubular universal mount fixed to the cross member the
tubular mount comprising a circular or non-circular cross-sectional
geometry, the mount interchangeably receiving one of the
attachments from the set of plurality of different attachments; and
each attachment from the set of plurality of different attachments
having a universal connector adapted to be interchangeably received
in the universal mount.
13. A walker assembly as described in claim 12, wherein the
universal connector comprises a male element that is received by
the universal mount that comprises a female element.
14. A walker assembly as described in claim 12, wherein the set of
a plurality of different attachments includes at least two
attachments selected from the group consisting of oxygen tank
holders, handles, IV poles, baskets, cane holders, trays, armrests,
and umbrella holders.
15. A walker assembly for assisting a patient with mobility, the
walker assembly comprising: a pair of side frames, each side frame
including a front leg, a rear leg, and a handrail, the handrail
joining the upper ends of the front and rear legs; a set of a
plurality of different attachments wherein each attachment provides
a different function; a cross member comprising a universal mount,
the mount interchangeably and selectively securing one attachment
of the set of a plurality of different attachments; and the
universal mount positioned in the center of the cross member
substantially equidistant from each side frame.
16. A walker as described in claim 15, wherein the universal mount
comprises an aperture in the cross member.
17. A walker as described in claim 16, further comprising a second
cross member, and the universal mount further comprises a second
aperture in the second cross member.
18. A walker assembly for assisting a patient with mobility, the
walker assembly comprising: a pair of side frames, each side frame
including a front leg, a rear leg, and a handrail, the handrail
joining the upper ends of the front and rear legs; a set of a
plurality of different attachments wherein each attachment provides
a different function; a cross member comprising a tubular universal
mount fixed to the cross member, the tubular mount comprising a
circular or non-circular cross-sectional geometry, the mount
interchangeably receiving one of the attachments from the set of a
plurality of different attachments; and each attachment of the set
of a plurality of different attachments comprising a tubular
connector, each tubular connector being interchangeably and
rotatably received by the mount and each connector being releasably
locked in at least one orientation with respect to the mount.
Description
The present invention relates generally to a walker, and in
particular to a walker having a universal mount adapted to
interchangeably receive multiple different attachments useful for a
patient using the walker.
BACKGROUND
Many patients have some type of infirmity, whether temporary or
otherwise, that requires the use of a walker to assist with
ambulation. By definition, a walker requires the use of one or both
hands by a patient when going anywhere. As a result, a patient's
hands are essentially fully occupied by the walker during use.
As a result of the foregoing, many different walkers are engineered
with different attachments for use by patients. For instance, a
walker may be specifically engineered to receive and carry an
oxygen bottle or a tray or an umbrella or one of many other types
of attachments to a walker in order to allow that patient to carry
or transport the various items. The problem is when patients
require different attachments at different times. A patient may
need a basket to carry various items one day and an umbrella to
take a walk in the rain another day. Or, in the case of a health
care provider that reuses walkers with different patients, there
may be a need for an oxygen bottle carrier for one patient, an IV
pole for another, and a stroke handle for still another. Therefore,
there is a need for a walker having a universal mount adapted to
interchangeably receive multiple different attachments that may be
used with a walker.
SUMMARY
Accordingly, it is an object of the present invention to overcome
the foregoing drawbacks and provide a walker with a universal mount
for interchangeably receiving multiple different attachments. The
mount is fixed to the walker. A plurality of different attachments
each has a connecter adapted to be received in the universal mount.
A single walker, therefore, may have an array of attachments for a
particular user. Alternatively, a care provider may stock a single
walker available for use by many different patients, because
individual needs can be met by the different attachments used with
the single walker.
In one example, a walker for assisting a patient with mobility
comprises a pair of side frames. A cross member is connected on
each end to each side frame. A universal mount is fixed to the
cross member wherein the mount is adapted to interchangeably
receive a plurality of different attachments. The attachments may
be selected from the group consisting of oxygen tank holders,
handles, IV poles, baskets, cane holders, trays, arm rests, and
umbrella holders. The universal mount may comprise a tubular
element having a plurality of apertures therein, each aperture
adapted to receive a detent. The tubular element may also have a
plurality of notches, each notch adapted to receive a detent. The
side frames may be rotatable connected to the cross member and
releasably and lockably connected to the cross member. The walker
may further comprise a second cross member with the universal mount
fixed to both cross members. The universal mount may also be fixed
to both cross members on the back side of both cross members. The
universal mount may be fixed to the center of the cross member
substantially equidistant from each side frame.
In another example, a walker kit for assisting a patient with
mobility includes a pair of side frames. A cross member connects on
each end to each side frame. A universal mount is fixed to the
cross member, wherein the mount is adapted to interchangeably
receive a plurality of different attachments. The kit farther
includes a plurality of attachments, each having a universal
connecter adapted to be interchangeably received in the universal
mount. The universal mount may comprise a tubular element that
matingly receives the universal connector. The universal connector
may comprise a male element that is received by the universal mount
that comprises a female element.
BRIEF DESCRIPTION OF DRAWINGS
FIG. 1 is a rear perspective view of a walker in accordance with an
example of the present invention.
FIG. 2 is a rear perspective view of the walker shown in FIG. 1
with the oxygen bottle carrier attachment shown detached from the
mount.
FIG. 3 is a rear perspective view of the walker shown in FIG. 1
having a stroke handle attachment placed in the mount.
FIG. 4 is a rear perspective view of the walker in accordance with
FIG. 1 wherein the mount is fixed on a front leg of the walker.
FIG. 5 is a rear perspective view of the walker shown in FIG. 1
having an alternative embodiment of a mount fixed to the cross
member.
FIG. 6 is a perspective view of an alternative example of a mount
fixed to a cross member.
FIG. 7 is a perspective view of a still further example of a mount
fixed to a cross member.
FIG. 8 is a perspective view of an additional mount integral in a
cross member.
FIGS. 9A-9D are rear perspective views of the walker shown in FIG.
1 showing different attachment examples.
DETAILED DESCRIPTION
Conventional walkers are known to have specially customized devices
to attach specific apparatuses to the walkers. For instance, a
special oxygen bottle cradle may be attached to a walker. Another
walker may have a clamp assembly for an IV pole. A still further
walker may include a clip or loop for a basket to be mounted on a
walker.
The present invention is a mount fixed on a walker in combination
with one or more attachments having a universal connector adapted
to be received in the mount. The different attachments may include,
but are not limited to, at least the following: oxygen tank
holders, handles, IV poles, baskets, cane holders, trays, armrests,
and umbrella holders. Each attachment includes a universal
connector component.
Turning now to the drawings, there is shown in the figures a walker
10 having a conventional construction. The walker 10 includes side
frames 12 that have a generally u-shape. The walker 10 includes
front legs 14 and rear legs 16 that are each substantially
vertical. The front and rear legs 14 and 16 are connected between
their upper ends by a pair of handrails 18 that connect the upper
ends of each of the front and rear legs. The handrails 18 are shown
having a grip 20 attached thereto for easy handling by a user.
Wheel assemblies 26 are mounted at the bottom of the front legs 14.
Spring-loaded wheels 28 and/or a rear foot 30 is attached to the
lower end of the rear legs 16. Additional side support beams 22 are
connected on either end to the front and rear legs 14 and 16 for
additional stability.
Cross members 36 and 38 are connected on each end to the front leg
14 of each of the side frames 12. A walker may include one or more
cross members like cross members 36 and 38. These cross members 36
and 38 are shown with some curvature. They may take other shapes
and forms. There may be a single cross member that is reinforced at
each end with respect to its attachment to the side frames 12. The
side frames 12 are shown as being rotatably connected to the cross
members 36 and 38. This allows the walker 10 to be rotated to a
folded position for storage and transport. A locking mechanism
including a pin 40 and slotted plate 42 cooperate to allow a user
to lock the walker 10 in the open position shown. By depressing the
locking button 40, the side frames 12 can be rotated to the folded
storage position.
A conventional walker 10 is shown, but alternative walker
constructions may be used. For instance, a walker may have a single
length of tube that forms part of a leg on each side frame and the
cross member. In another example, the side frames may have an
inverted y shape with a cross member connected to the end of the y
on each side. Other geometries of walker can be configured. While
the side frames and cross member are discussed separately, they
could include integral pieces or merely sections of a particular
walker construction.
Returning now to the figures, a tubular mount 50 is fastened to the
cross members 36 and 38 on the back side of those cross members.
Stated another way, the mount 50 is situated within the space
defined by the inside of the walker when opened to the position
shown in the figures. By placing the mount 50 on the back side of
the cross members 36 and 38, the center of gravity of the walker is
improved and reduces the chance for tipping or other possibly
serious events. Also, the mount 50 is shown as being fastened to
substantially the middle of the cross members 36 and 38 so that it
is generally equidistant from each of the side frames 12. As shown,
for instance, in FIG. 4, a mount 80 could be fastened elsewhere on
the walker structure. For instance, in FIG. 4, a tubular mount 50
is mounted on the front leg 14 of a side frame 12.
As best seen in FIG. 2, the mount 50 has a hollow, tubular shape.
The mount 50 is shown as being round. It could be square, oval,
symmetric, asymmetric, or any other geometry. An advantage of the
round shape is that it allows rotational movement of a connector
that is received inside the mount 50. Also, the mount 50 is shown
as having a sufficient length to provide a rigid support when the
connector is inserted therein. Alternatively, a mount could be one
or more pieces, for instance, a pair of loops or a ring and a can,
etc. Still further alternatively, FIG. 5 illustrates a mount 90
having an alternative construction to the tubular mount 50 shown,
for instance, in FIG. 2. Mount 90 includes apertures 92 that could
receive hooks or other male inserts from a reciprocal connector
(not shown).
In the figures, mount 50 is permanently fastened to the cross
members 36 and 38 by welding. The mount 50 may be otherwise
permanently fastened by adhesive, rivet, screw or otherwise. In a
further example, mount 50 may be removably fastened to the cross
members 36 and 38 by clamps or straps and snaps or screws or nuts
and bolts. For safety purposes, the fastening of a mount should be
very secure and free from any loose movement.
Returning again to FIG. 2, there is shown an aperture 52 in the
mount 50. The aperture 52 is a round hole in the mount 50 which is
adapted to receive a detent such as detent 62 that is part of the
connector 60 shown in FIG. 2. Still further, the mount 50 includes
notches 54 open along the top edge of the tubular mount. These
notches 54 likewise are adapted to receive a detent like detents
64. The notches 54, in combination or alone with the apertures 52
may allow an attachment such as the oxygen bottle holder 56 to be
rotated around inside the mount 50. An attachment with a universal
mount 60 may be releasably locked in various orientations around
the mount 50. As is evident from the drawings, the universal
connector 60 is a circular element adapted to be received within
the mount 50. As shown, the connector 62 is the male element, while
the mount 50 is the female element that receives the connector.
Alternatively, not shown, a mount could be the male element while
the connector is a female element.
The figures show many different attachments. Each attachment has a
connector. In FIGS. 1 and 2, an oxygen bottle carrier 56 has a
tubular connector 60. In FIG. 3, a handle 70 likewise has a tubular
connector 72. In the example of the handle 70, the handle includes
a detent 74 that may be received within the aperture 52 and/or the
notch 54. Many other types of attachments may be used as long as
they include some connector component that is adapted to be
received in a mount. The mount 50 in the form of a round tube is
especially useful for use with a stroke handle as shown in FIG. 3,
because the handle may be rotated to be releasably locked in the
right hand position shown in broken lines or the left hand position
shown in solid lines. Or the handle may be rotated further around
to either side to simplify the storage or transportation of the
walker 10 when it is folded.
FIGS. 9A-9D illustrate still further the examples of different
attachments that may be used in connection with a universal mount
50. In FIG. 9A, a tray 100 has a universal connector 102 that is
received in the universal mount 50. As a result of the circular,
tubular shape of the universal mount 50 and the universal connector
102, the tray 100 may be rotated to inside or outside positions.
The further use of detents (not shown) allow the tray to be locked
into at least inside or outside positions. By merely depressing the
spring-loaded detent, the tray may be rotated around or removed
from the universal mount 50 FIG. 9B illustrates an IV pole
attachment 110 that is received in the universal mount 50. The IV
pole attachment 110 includes a universal connector portion 112 that
is inserted into the mount 50. Again, as a result of the circular,
tubular construction of the universal mount 50, the IV pole
attachment 110 may be rotated to be releasably locked in the right
or left positions depending on the need of a given patient. Detents
(not shown) in the universal connector 112 can be received in the
universal mount 50 to lock the IV pole attachment 110 in the right
or left hand or any other position that may be advantageous. FIGS.
9C and 9D likewise show further attachments. FIG. 9C demonstrates a
cup holder 120, while FIG. 9D shows a basket 130. In each case, the
attachment is connected to the universal mount 50.
As shown in FIGS. 5-8, alternative mount structures are possible.
FIG. 5 shows mount 90 and apertures 92 that may be selectively
engaged by male elements of various connectors used in connection
with different attachments that may be mounted on the walker
10.
In FIG. 6, a bracket 140 is a universal mount that is fixed on a
walker cross member 142. The bracket 140 includes a spring-loaded
retaining pin 148. The bracket 140 is shown having a female
structure that is adapted to receive the male bracket 144. The male
bracket 144 acts as a universal connector to be used in connection
with the universal mount/bracket 140. Universal connector 144 is
incorporated into any type of attachment that is desirable to be
mounted into the bracket 140 including, but not limited to, those
attachments otherwise discussed herein. The male bracket 144
includes an aperture 146 which receives the spring-loaded retaining
pin 148 that allows the male connector bracket 144 to be releasably
locked in place on the mount/bracket 140.
FIG. 7 illustrates a still further embodiment of a universal mount
150. The universal mount 150 is a plate that is connected to a
walker cross member 152. The mount 150 is adapted to engage a
universal connector plate 154. The connector plate 154 includes a
top lip 156 and a spring-loaded bottom clip 158. In use, the
connector plate is hooked over the top of the mount plate 150. The
clip 158 is then depressed and snapped into place around the bottom
of the connector plate 150. As with the other mount/connector
constructions, the removable securement of the connector plate 154
allows for easy alternate use of various attachments that would be
otherwise secured to the connector plate 154.
FIG. 8 illustrates a still further universal mount system that is
integral to a walker crossbar. In FIG. 8, a top cross frame bar 160
has a hole 164 integrally formed in the top of that crossbar.
Similarly, bottom crossbar 162 has a hole 166 integrally formed in
the bottom of that crossbar. These holes 164 and 166 in the cross
members 160 and 162 form the universal mount assembly in this
alternative embodiment. A universal connector 168 includes a
c-shape with a top point 170 that is adapted to be received in the
hole 164. Bottom pin 172 of the universal connector 168 is a
spring-loaded pin that is adapted to be received in the bottom hole
166. The universal connector 168 is an integral part of any of the
attachments that could be used in connection with this system. FIG.
8 is an example of a universal mount that is integrally formed in
the cross members 160 and 162 of a walker. A still further
alternative construction that may be used would include a single
hole in either a top crossbar or a bottom crossbar. A c-shaped
universal connector could simply loop over the top bar or under the
bottom bar and the opposite bar has a hole in it to receive a
spring-loaded pin similar to pin 172. In this way also a universal
connector like universal connector 168 can be releasably secured to
a cross member of a walker.
In an example of the present invention, a walker such as walker 10
may be made available as a kit with different collections or
selections of attachments. For instance, an individual user may
determine that they use three or four different attachments on a
regular basis. They could purchase as a kit the walker and two or
three or four or more individual attachments. When a specific
attachment is desired, it can be simply interchanged out if it is
not already placed within the mount. Similarly, health care
providers such as hospitals or rehabilitation centers may have
large stocks of walkers that they require for their different
patients and different patient needs. By maintaining a stock of
walkers having a universal mount and a stock of a plurality of
different attachments that include connectors that are adapted to
be received in the universal mount, much greater flexibility is
allowed to the care provider so that a lesser inventory of walkers
would be necessary.
While the invention has been described with reference to specific
embodiments thereof, it will be understood that numerous
variations, modifications and additional embodiments are possible,
and all such variations, modifications, and embodiments are to be
regarded as being within the spirit and scope of the invention.
* * * * *
References